CN115256094A - Grinding device for anti-corrosion layer of pipe end of bent pipe - Google Patents

Abstract

The invention provides a grinding device for an anticorrosive coating of a pipe end of a bent pipe, which belongs to the technical field of grinding devices and comprises a support frame, a grinding device and a clamping device, wherein the grinding device is connected to the support frame and is provided with a plurality of grinding machines which are suitable for circumferentially rotating along the outer circle of the bent pipe close to the end part and grinding the end part of the bent pipe, and a positioning structure which is suitable for positioning the grinding position of the bent pipe in the axial direction of the bent pipe, the positioning structure is used for abutting against the pipe end and adjusting the grinding width of the grinding machine on the pipe end, the clamping device is connected to the support frame in a manner of axially rotating around the bent pipe and is provided with a plurality of clamping structures which circumferentially rotate along the outer circle of the bent pipe close to the end part and are suitable for radially extruding and clamping the bent pipe, and the rotation directions of the clamping device and the grinding device are opposite when the clamping device and the grinding device alternately operate or simultaneously operate. The grinding device for the anticorrosive coating at the pipe end of the elbow pipe has the technical effects of being beneficial to adjusting and controlling the grinding width of the pipe end and not influencing the later-stage welding quality and the anticorrosive coating quality.

Description

Grinding device for anti-corrosion layer of pipe end of bent pipe

Technical Field

The invention belongs to the technical field of grinding devices, and particularly relates to a grinding device for an anticorrosive coating of a pipe end of a bent pipe.

Background

The natural gas pipeline is a pipeline for conveying natural gas from a mining place or a processing plant to an urban gas distribution center or industrial enterprise users, and is also called a gas conveying pipeline. The natural gas pipeline has directly to have curved, no matter be the straight tube or return bend, need weld the junction between two adjacent pipelines when laying natural gas pipeline, need treat the position of coating the anticorrosive coating again before the welding and polish the processing on the pipeline, scribble the anticorrosive coating again after the welding. The pipe end is polished by manually holding a polishing tool or an instrument in the prior art, and the defects of the operation are that the width of the polished pipe end is wide or narrow, and the width is not easy to control, so that the later-stage welding quality and the anticorrosive coating quality are influenced.

Disclosure of Invention

The invention aims to provide a grinding device for an anticorrosive coating at the end of a bent pipe, and aims to solve the technical problem that the grinding width is not easy to control when the end of a bent natural gas pipeline is ground manually.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a return bend pipe end anticorrosive coating grinding device, includes:

a support frame;

the grinding device is connected to the support frame, is provided with a plurality of grinders which are suitable for circumferentially rotating along the outer circle of the bent pipeline close to the end part and grinding the end part of the pipeline, and is also provided with a positioning structure which is suitable for positioning the grinding position of the pipeline along the axial direction of the pipeline, wherein the positioning structure is used for abutting against the pipe end and regulating the grinding width of the grinders on the pipe end; and

the clamping device is connected with the supporting frame in a rotating mode in the axial direction of the pipeline, is provided with a plurality of clamping structures which rotate in the circumferential direction along the outer circle of the bent pipeline close to the end part and are suitable for extruding and clamping the pipeline along the radial direction of the pipeline, and the rotating direction of the clamping device is opposite to that of the grinding device in rotating and alternate operation or simultaneous operation.

As another embodiment of this application, return bend pipe end anticorrosive coating grinding device is still including being suitable for the bearing return bend and to being close to grinding device direction is along pipeline axial pipeline's conveyer, the conveyer has and is suitable for the regulation post of adjusting the bearing height to the return bend.

As another embodiment of this application, return bend pipe end anticorrosive coating grinding device still includes and is suitable for the cleaning device who cleans pipeline outer wall dust impurity, cleaning device can follow pipeline excircle circumference rotation and along pipeline axial displacement, and cleans in rotatory and in moving.

As another embodiment of the present application, the polishing apparatus includes:

the three groups of first supporting wheels are rotatably connected to the supporting frame along the axial direction of the supporting frame, and are arranged in the same vertical plane and form a circular space in a surrounding manner;

the central wheel rotates along the axial direction of the central wheel and is arranged in the circular space, the outer circumferential wall of the central wheel is connected with the three first supporting wheels, the axial direction of the central wheel is along the axial direction of the pipeline, and the pipeline is positioned on the side of the central wheel;

the grinding machines are respectively connected to the first sliding rails in a one-to-one corresponding sliding mode, the sliding direction of the grinding machines is along the radial direction of the pipeline, the grinding machines are enclosed to form a circle, and the diameter of the circle is adjusted through sliding;

the positioning structure is connected to one side, close to the pipeline, of the center wheel, and when the pipeline is close to the grinding device, the positioning structure is used for abutting against the pipe end and positioning the grinding position of the grinding machine on the pipe end.

As another embodiment of this application, grinding device still includes along the flexible telescopic link of pipeline axial, telescopic link one end sliding connection first slide rail, the other end are connected the polisher, the polisher is to the pipe end position of polishing with the help of the telescopic link is adjusted.

As another embodiment of the present application, the clamping device includes:

the three groups of second supporting wheels are rotatably connected to the supporting frame along the axial direction of the supporting frame, and the three groups of first supporting wheels are arranged in the same vertical plane and form a circular space in a surrounding manner;

the clamping structures are arranged on the inner circumferential wall of the gear ring and arranged around the outer circumference of the pipeline, and the clamping structures are used for abutting against the outer wall of the pipeline when the pipeline stretches out and draws back in the radial direction.

As another embodiment of the present application, a driver is connected to the supporting frame, and the driver is used for driving the central wheel and the gear ring to rotate in opposite directions, or driving the central wheel to rotate, or driving the gear ring to rotate.

As another embodiment of this application, the support frame is connected with and is used for the rotatory bearing subassembly of bearing pipeline axial, the arc just can be adjusted with pipeline appearance looks adaptation in the bearing subassembly, the bearing height of bearing subassembly.

As another embodiment of the application, a conveying mechanism is connected to the bottom end of the conveyor and is suitable for driving the conveyor to translate along the axial direction of the pipeline so as to adjust the grinding width of the end part of the pipeline.

As another embodiment of this application, the transport mechanism bottom is connected with rotary platform, rotary platform is used for the drive transport mechanism circles the rotation in the horizontal plane to the position of polishing of regulation pipeline tip.

The grinding device for the anti-corrosion layer at the end of the bent pipe has the beneficial effects that: compared with the prior art, the grinding device for the anti-corrosion layer of the pipe end of the bent pipe comprises a support frame, a grinding device and a clamping device, wherein the grinding device is connected to the support frame, is provided with a plurality of grinding machines which are suitable for circumferentially rotating along the outer circle of the position, close to the end part, of the bent pipe and grinding the end part of the bent pipe, and is also provided with a positioning structure which is suitable for positioning the grinding position of the bent pipe in the axial direction of the pipe, the positioning structure is used for abutting against the pipe end and adjusting the grinding width of the pipe end of the grinding machine, the clamping device is connected to the support frame in an axially rotating mode around the pipe, the clamping structure is provided with a plurality of clamping structures which are suitable for circumferentially rotating along the outer circle of the position, close to the end part, of the bent pipe and pressing the clamping pipe in the radial direction of the pipe, the rotating direction of the clamping device and the rotating direction of the grinding device are opposite when the clamping device and the grinding device are operated alternately or operated simultaneously, the technical problem that the grinding width of the end part of the bent natural gas pipe is difficult to be manually controlled is solved, and the grinding width of the pipe end part of the pipe end is beneficial to be adjusted and the pipe to control, and the technical effect that the welding quality and the coating quality of the anti-corrosion layer in the later period is not influenced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a grinding device for an anticorrosive coating at a pipe end of a bent pipe according to an embodiment of the present invention;

FIG. 2 is a structural side view of a clamping device of a grinding device for an anticorrosive coating at a pipe end of an elbow pipe, according to an embodiment of the present invention;

fig. 3 is a schematic front view of a conveyor and a conveying mechanism of the grinding device for the anticorrosive coating at the end of the elbow pipe according to the embodiment of the invention;

FIG. 4 is a schematic diagram of a side view of a conveyor of the grinding device for the anticorrosive coating at the end of the elbow pipe shown in FIG. 3;

FIG. 5 is a structural side view of a cleaning device of a grinding device for an anticorrosive coating at a pipe end of an elbow pipe, according to an embodiment of the present invention;

FIG. 6 is a structural side view of a supporting assembly of the grinding device for the anticorrosive coating of the pipe end of the elbow pipe provided by the embodiment of the invention;

figure 7 is a schematic view of the upper end of the support assembly of figure 6 in a support tunnel position.

In the figure: 100. a support frame; 101. a traveling wheel; 102. hooking; 103. a distance sensor; 104. a vacuum cleaner;

200. a polishing device; 201. a sander; 202. a positioning structure; 203. a first support wheel; 204. a center wheel; 205. a first slide rail; 206. a telescopic rod;

300. a clamping device; 301. a clamping structure; 302. a second support wheel; 303. a ring gear;

400. a conveyor; 401. an adjustment column; 402. a frame; 403. a roller; 404. a regulator; 405. a drive motor;

500. a cleaning device; 501. a mobile vehicle; 502. a lifting column; 503. a loop; 504. a rotating ring; 505. a sweeping assembly; 506. cleaning the column; 507. a box body; 508. a broom; 509. an exhaust fan;

600. a control panel;

700. a driver; 701. a second slide rail; 702. a drive motor; 703. a bearing; 704. a telescopic rod; 705. a drive gear;

800. a holding assembly; 801. a base; 802. a support post; 803. an arc-shaped plate; 804. a ball bearing;

900. a transfer mechanism; 901. a motor; 902. a drive wheel; 903. a driven wheel; 904. a conveyor chain; 905. a column; 906. rotating the platform; 907. a universal wheel; 908. and (4) a bracket.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 7, a description will now be given of a grinding device for an anticorrosive coating at a pipe end of a bent pipe according to the present invention. The grinding device for the anti-corrosion layer of the pipe end of the bent pipe comprises a support frame 100, a grinding device 200 and a clamping device 300, wherein the grinding device 200 is connected to the support frame 100 and is provided with a plurality of grinding machines 201 which are suitable for circumferentially rotating along the outer circle of the position, close to the end part, of the bent pipe and grinding the end part of the bent pipe, and a positioning structure 202 which is suitable for positioning the grinding position of the bent pipe along the axial direction of the bent pipe and is used for abutting against the pipe end and adjusting the grinding width of the grinding machine 201 on the pipe end (the grinding width refers to the distance extending from the pipe end to the middle part of the bent pipe along the axial direction of the bent pipe); the clamping device 300 is connected to the supporting frame 100 in an axial rotation manner around the pipeline, and has a plurality of clamping structures 301 which rotate circumferentially around the outer circumference of the bent pipeline near the end and are suitable for pressing and clamping the pipeline along the radial direction of the pipeline, and the rotation direction of the clamping device 300 is opposite to that of the grinding device 200 in the rotation alternate operation or the simultaneous operation.

The invention belongs to a grinding device in the field of high-end equipment manufacturing, and can realize grinding and grinding treatment on the end part of a natural gas pipeline, so as to facilitate later-stage welding and wear-resistant coating. Because the axial line of the elbow is curved, when the clamping device 300 is not easy to rotate the pipeline or the space for rotating the pipeline is not enough, only the grinding device 200 can be rotated.

Compared with the prior art, the grinding device 200 is connected to the support frame 100, is provided with a plurality of grinders 201 which are suitable for rotating along the outer circle of the bent pipeline close to the end part in the circumferential direction and grinding the end part of the pipeline, and is also provided with a positioning structure 202 which is suitable for positioning the grinding position of the pipeline in the axial direction of the pipeline, wherein the positioning structure 202 is used for abutting against the pipe end and adjusting the grinding width of the pipe end by the grinders 201, the clamping device 300 is connected to the support frame 100 in the axial direction of the pipeline in a rotating mode, and is provided with a plurality of clamping structures 301 which are suitable for extruding and clamping the pipeline in the radial direction of the pipeline in the circumferential direction of the outer circle of the bent pipeline close to the end part, and the rotating direction of the clamping device 300 is opposite to the rotating direction of the grinding device 200 in the rotating alternating operation or simultaneous operation, so that the technical problem that the grinding width is difficult to control during the grinding treatment of the end part of the bent natural gas pipeline is solved manually, and the grinding width of the pipe end part is beneficial to adjustment and control, and the technical effect that the later-period welding quality and the coating quality of the anticorrosive coating are not affected.

Support frame 100 is the L type in this embodiment, and the bottom has a plurality of walking wheels 101 for support frame 100 can move to arbitrary place in a flexible way and carry out the operation of polishing to the return bend pipe end, can improve the flexibility and the convenience of the operation of polishing like this, in addition, is provided with couple 102 in the one end of support frame 100, and this couple 102 can hang and hold and connect other objects or mobile device, in order to be drawn this support frame 100 to the position of waiting to polish the return bend. The polishing of the anticorrosive coating is to polish the position of the anticorrosive coating to be coated on the end part of the pipeline.

Clamping device 300 is to pressing from both sides the pipeline tight in the outer circumference of pipeline to the location and the fixed effect of the position to the pipeline of realization, polishes the pipe end through grinding device 200 after fixed, has three kinds of motion in this embodiment: firstly, make grinding device 200 rotatory, then polisher 201 can be rotatory around the pipe end outer circumference at the geminate transistors end in-process of polishing, and polisher 201 has realized rotation and revolution promptly, and the rotation is polished to a certain department of geminate transistors end, and the revolution is polished to the geminate transistors end around outer circumferential wall, can realize polishing fast through this kind of motion, raises the efficiency. Secondly, the clamping device 300 is rotated, at the moment, the clamping device 300 drives the pipeline to rotate, the pipeline rotates, the polishing device 200 does not rotate, only the polishing machine 201 operates, the effect of polishing the outer circumferential wall of the pipe end can also be achieved, and the motion mode at the moment has the same effect as the motion mode. Thirdly, the grinding device 200 and the clamping device 300 are opposite in rotation direction, so that the grinding speed can be further increased, and the grinding efficiency can be improved. The three polishing modes are on the premise of ensuring the polishing quality so as not to influence the later coating of the anticorrosive coating.

Referring to fig. 1 to 7, as an embodiment of the grinding device for grinding the corrosion protection layer at the end of the elbow pipe provided by the present invention, in order to convey the elbow pipe in the direction close to the grinding device 200 for grinding, the grinding device for grinding the corrosion protection layer at the end of the elbow pipe further includes a conveyor 400 adapted to support the elbow pipe and convey the elbow pipe in the direction close to the grinding device 200 along the axial direction of the elbow pipe, and the conveyor 400 has an adjusting column 401 adapted to adjust the support height of the elbow pipe. The conveyor 400 is used for translating the pipeline, and can also translate the bent pipeline, the bent pipeline is provided with a bent structure in the middle of the pipeline, so that the conveying direction of natural gas can be conveniently adjusted, and the polished end part of the bent pipe is the same as that of the straight pipe. The invention can polish the end of the bent pipe. The polishing position of the polishing machine 201 of the polishing device 200 is the position to be polished, and the bent pipe can be conveyed to the position to be polished by the conveyor 400. The height of the pipeline can be adjusted by adjusting the height of the adjusting column 401, so that the pipeline can enter a position to be polished. As the pipe is driven to rotate, the adjustment post 401 on the conveyor 400 retracts and moves away from the pipe, providing room for the pipe to rotate.

Specifically, conveyer 400 can contact the upper end and the lower extreme of pipeline and press from both sides tightly the pipeline, at the tight in-process pipeline of clamp, can prevent like this that the pipeline from taking place phenomenons such as crooked, slippage in translation process, reduces the efficiency of polishing.

In this embodiment, conveyer 400 includes but height-adjusting's frame 402, and regulation post 401 is a plurality of, and the vertical setting of regulation post 401 all locates top and bottom in the frame 402, and a plurality of regulation posts 401 intervals set up, and the one end of keeping away from being connected with frame 402 on the regulation post 401 is provided with gyro wheel 403, and some gyro wheels 403 set up to the drive wheel, and some gyro wheels 403 set up to follow the driving wheel, through the rotary drive of drive wheel, can make the pipeline realize the translation inside frame 402. The pipe moves between the top and bottom rollers 403. The side of the frame 402 is rectangular, the middle of the frame is provided with a height adjustable adjuster 404, the adjuster 404 is the prior art, the frame 402 is divided into an upper part and a lower part, the adjuster 404 is arranged in the middle, the upper end and the lower end of the adjuster 404 are both in threaded connection with the upper part and the lower part, the distance between the upper part and the lower part can be adjusted by screwing the adjuster 404, and therefore the height of the frame 402 is adjusted. At this point, pipes of different outer diameters are introduced into the frame 402 for conveying pipes of different outer diameters. The gyro wheel 403 cross-section is the hyperbola shape, and its outer arc is interior concavity, with the outer arc looks adaptation of pipeline to can increase and pipeline outer wall area of contact, improve frictional force and the stability of carrying to the pipeline. The one end setting that connects gyro wheel 403 on adjusting post 401 is the U type, can support the gyro wheel 403 rotatory. The rollers 403 do not contact the pipe as it rotates so that the movement of the pipe is not constrained and axial rotation is achieved. The adjuster 404 is a double-ended member with opposing external threads. The frame 402 is a detachable or splicing connection structure, which facilitates installation of the adjusting column 401 and passage of the pipe.

A motor 405 is arranged on the frame 402, the power output end of the motor 405 is connected with the roller 403 through a conveyor belt or a conveyor chain and the like, so that the roller 403 is driven to rotate, and the roller 403 is in contact friction with the outer wall of the pipeline, so that the pipeline is driven to translate.

Referring to fig. 1 to 7, the grinding apparatus for grinding an anticorrosive coating of a pipe end of a bent pipe further includes a cleaning apparatus 500 adapted to clean dust and impurities on an outer wall of the pipe, wherein the cleaning apparatus 500 is capable of rotating in a circumferential direction of an outer circumference of the pipe and moving in an axial direction of the pipe, and cleaning during the rotation and the movement. The cleaning device 500 can clean the outer wall of the pipeline in the pipeline conveying process, and can also clean the outer wall of the pipeline in the pipeline rotating process, in addition, the cleaning device 500 can also move and rotate by itself, and the cleaning of impurities, dust and the like on the wall of the pipeline can be realized in any mode.

Specifically, the cleaning device 500 includes a moving vehicle 501, a lifting column 502 disposed at the upper end of the moving vehicle 501, a ring 503 disposed at the upper end of the lifting column 502 (the ring 503 is divided into two parts, the upper part and the lower part are combined to form the ring 503, the center is in the axial direction of the pipeline), a rotating ring 504 rotatably connected to the inner circumferential wall of the ring 503 (a slide way is disposed along the circumferential direction on the inner wall of the ring 503, the outer circumference of the rotating ring 504 is slidably connected to the slide way and can rotate along the circumferential direction in the ring 503, the upper part and the lower part of the ring 503 wrap the rotating ring 504), and a plurality of cleaning assemblies 505 disposed at intervals on the inner wall of the rotating ring 504, the rotating ring 504 is coaxial with the ring 503, the combination of the ring 503 and the rotating ring 504 is similar to the principle of a bearing, that the inner ring of the bearing can rotate relative to the outer ring, and the cleaning assemblies 505 can rotate along the circumferential direction of the pipeline, and can perform cleaning operation. The rotating ring 504 can drive the cleaning assembly 505 to perform cleaning operation during rotation, and can also be moved along the axial direction of the pipeline by the moving vehicle 501 to clean the outer wall of the pipeline.

The cleaning assembly 505 is at least one group, preferably two or three groups, and comprises a cleaning column 506, a box body 507 and a broom 508, wherein one end of the cleaning column 506 is connected with the inner wall of the rotating ring 504, the other end of the cleaning column faces towards the pipeline, the cleaning column 506 can radially extend and retract along the pipeline, the box body 507 is hollow, one end of the cleaning column 506 is connected with the other end of the cleaning column 506, the broom 508 is connected with one end of the box body 507 close to the pipeline, the cleaning is used for contacting the outer wall of the pipeline and cleaning dust impurities by means of extension and retraction of the cleaning column 506, an exhaust fan 509 is arranged in the box body 507, an exhaust end of the exhaust fan 509 penetrates through the box body 507 and faces towards the pipeline, the exhaust fan 509 is used for extracting the dust impurities on the outer wall of the pipeline, a hose is communicated with an air outlet end of the exhaust fan 509, the hose penetrates out of one side of the box body 507 and is communicated with a dust collection box, and the dust impurities extracted by the exhaust fan 509 are contained in the dust collection box. Rotation of the rotating ring 504 may be manually actively urged to rotate.

As an embodiment of the grinding device for the anticorrosive coating at the pipe end of the elbow pipe, referring to fig. 1 to 7, the grinding device 200 includes three sets of first supporting wheels 203, a center wheel 204, and a plurality of first sliding rails 205; the three groups of first supporting wheels 203 are rotatably connected to the supporting frame 100 along the axial direction of the supporting frame, and the three groups of first supporting wheels 203 are arranged in the same vertical plane and form a circular space in a surrounding manner; the central wheel 204 is rotatably arranged in the circular space along the axial direction of the central wheel, the outer circumferential wall of the central wheel is connected with the three first supporting wheels 203, the axial direction of the central wheel 204 is along the axial direction of the pipeline, and the pipeline is positioned on the side of the central wheel 204; the multiple first sliding rails 205 are arranged on one side, close to the pipeline, of the central wheel 204, the multiple grinding machines 201 are respectively connected to the multiple first sliding rails 205 in a one-to-one corresponding sliding mode, the sliding direction of the grinding machines 201 is along the radial direction of the pipeline, the multiple grinding machines 201 are enclosed to form a circle, and the diameter of the circle is adjusted through sliding; wherein the positioning structure 202 is connected to the side of the centre wheel 204 close to the pipe, and the positioning structure 202 is used to abut against the pipe end and position the grinding position of the grinding machine 201 on the pipe end when the pipe is close to the grinding device 200. The three groups of first supporting wheels 203 are connected in a straight line to form a triangle, the first supporting wheels 203 are equivalent to auxiliary gears and are rotatably connected to the supporting frame 100, the three groups of first supporting wheels form a structure which is provided for the center wheel 204 to rotate, the outer circumferential wall of the center wheel 204 is of a gear excircle structure and is in meshed transmission connection with the first supporting wheels 203, the plurality of grinding machines 201 can be driven to rotate around the circumference of the outer circle of the pipeline through the rotation of the center wheel 204, and then the pipe end can be ground, the grinding machines 201 are provided with grinding rollers, the grinding rollers are wound or wrapped with grinding sheets or grinding belts, the grinding is carried out through the rotation of the grinding rollers, the grinding machines 201 can adopt products in the prior art, the axial direction of the grinding rollers is along the axial direction of the pipeline, and the grinding rollers are always in contact with the outer wall of the pipeline in the grinding process. The diameter of the circle defined by the plurality of grinders 201 is adjustable to accommodate grinding of pipe ends of a plurality of pipes of different outer diameters. The first sliding rail 205 is located on the right side of the center wheel 204 as viewed in the drawing, and the pipe is also located on the right side of the center wheel 204 without contacting the center wheel 204. The first slide track 205 provides the function of adjusting the thickness of the pipeline to be polished for the polishing machine 201, and can also adapt to polishing of pipelines with different diameters.

The positioning structure 202 in this embodiment can only push the pipe in one direction to adjust the grinding position of the pipe. The positioning structure 202 is similar to an electric push rod, the electric push rod extends and retracts along the axial direction parallel to the pipeline, one end of the electric push rod is connected with the central wheel 204, the other end of the electric push rod is a cantilever end and is used for pushing the pipe end, after the pipe end contacts the positioning structure 202, the grinding position of the grinding machine 201 on the pipe end can be adjusted through the extending and retracting pushing of the positioning structure 202, at the moment, the positioning structure 202 is only adjusted in a single direction, and the position of the pipeline cannot be adjusted in the direction close to the positioning structure 202. At this time, the position of the pipeline should be adjusted by matching with the conveying of the conveyor 400, so that the conveyor 400 and the positioning structure 202 operate cooperatively, and finally, the grinding position of the pipeline can be accurately adjusted.

The pipe end polishing device further comprises a control panel 600 which is electrically connected with the polishing device 200, the clamping device 300, the conveyor 400, the cleaning device 500 and the adjusting column 401 respectively and can be controlled to run, so that automatic control of pipe end polishing of the bent pipe is achieved, when polishing is needed, the pipe can be conveyed to a position close to the polishing device 200, and after polishing is completed, the pipe can be conveyed to a position far away from the polishing device 200, so that the next pipe can be polished. The control panel 600 is similar to a remote controller, and can automatically polish the pipe end by operating the remote controller.

The support frame 100 is connected with a distance sensor 103 with an adjustable position, and the position of the pipeline is detected through the distance sensor 103, so that the grinding position of the end part of the pipeline can be accurately controlled. The acquisition of the pipe end grinding position can be assisted by observing the signal detected by the distance sensor 103 when adjusting the position of the pipe. The control panel 600 is electrically connected to a display, and the current position information of the pipeline can be displayed on the display.

Preferably, a dust collector 104 is arranged on the side of the central wheel 204, the dust collector 104 has a dust collecting pipe, the suction end of the dust collecting pipe faces the position where the sander 201 contacts with the pipeline, and the dust and the like generated during the sanding process of the pipe end can be sucked by the dust collector 104, so that the environment is prevented from being polluted.

Referring to fig. 1 to 7, the grinding device 200 further includes an expansion link 206 extending and retracting along the axial direction of the pipeline, one end of the expansion link 206 is slidably connected to the first slide rail 205, the other end of the expansion link 206 is connected to the grinding machine 201, and the grinding position of the grinding machine 201 to the pipeline end is adjusted by the expansion link 206. By adjusting the telescopic length of the telescopic rod 206, the polishing position of the polishing machine 201 can be adjusted, and the polishing width of the pipe ends is controlled.

Specifically, the telescopic rod 206 can be an electric pushing cylinder or an electric telescopic rod 206, and the polishing width can be adjusted by controlling the end of the control panel 600. One end of the telescopic rod 206 connected with the first sliding rail 205 is provided with a sliding block, and the sliding block is connected on the first sliding rail 205 in a sliding manner. The sliding block can be limited in position after sliding, and the telescopic rod 206 can be limited in length after stretching.

As a specific embodiment of the grinding device for the anti-corrosion layer at the pipe end of the elbow pipe provided by the present invention, please refer to fig. 1 to 7, the clamping device 300 includes three sets of second supporting wheels 302 and a gear ring 303, the three sets of second supporting wheels 302 are all rotatably connected to the supporting frame 100 along the axial direction thereof, and the three sets of first supporting wheels 203 are disposed in the same vertical plane and enclose to form a circular space; the gear ring 303 is rotatably arranged in the circular space along the axial direction of the gear ring 303, the outer circumferential wall of the gear ring 303 is connected with the three second supporting wheels 302, the gear ring 303 axially extends along the axial direction of the pipeline, the plurality of clamping structures 301 are arranged on the inner circumferential wall of the gear ring 303 and surround the outer circumference of the pipeline, and the clamping structures 301 are used for abutting against the outer wall of the pipeline when the clamping structures extend and retract along the radial direction of the pipeline. The structure of the second supporting wheel 302 is the same as that of the first supporting wheel 203 in structure and specification, the gear ring 303 is the same as the outer diameter of the central wheel 204, the outer circle of the gear ring 303 is a gear and can be in meshing transmission connection with the second supporting wheel 302, the plurality of clamping structures 301 can rotate around the circumferential direction of the outer circle of the pipeline through the rotation of the gear ring 303, when the clamping structures 301 clamp the pipeline and then rotate, the pipeline can be driven to rotate along the axial direction of the pipeline simultaneously, and at the moment, when the polisher 201 only rotates automatically, the polisher 201 can polish the outer circumferential wall of the end of the pipeline, and the polishing track is circular. The ring gear 303 is inside to be cavity, can provide installation space for the installation of a plurality of clamping structure 301, and a plurality of clamping structure 301 are annular matrix and arrange, and quantity is 12, can extrude the pipeline simultaneously, and then fixed and fix a position of pipeline for the width of polishing is controlled easily to the pipe end in-process of polishing. The pipeline can pass through the middle of the gear ring 303, and the pipe end is positioned in a vertical space surrounded by the plurality of grinding machines 201. The conveyor 400 is located at the right side of the clamping device 300 without contacting the clamping device 300, and the cleaning device 500 is located at the right side of the conveyor 400 without contacting each other.

Specifically, clamping structure 301 is an electric telescopic cylinder, and one end and ring gear 303 inner wall fixed connection, the other end are the free end and are used for butt joint pipeline outer wall. The clamping structures 301 are electrically connected with the control panel 600, and the clamping structures 301 are controlled by the control panel 600 to clamp and fix or release the pipeline.

In order to reasonably control the operation of the grinding device 200 and the clamping device 300, as a specific embodiment of the grinding device for the corrosion protection layer of the pipe end of the elbow pipe provided by the present invention, please refer to fig. 1 to 7, the support frame 100 is connected with a driver 700, and the driver 700 is used for driving the central wheel 204 and the ring gear 303 to rotate in opposite directions, or driving the central wheel 204 to rotate, or driving the ring gear 303 to rotate. The driver 700 can achieve the above functions, and further can control the tube end polishing speed and efficiency.

Specifically, the driver 700 includes a second slide rail 701 connected to the support frame 100, a driving motor 702 fixedly connected to the upper end of the second slide rail 701, a bearing 703 slidably connected to the upper end of the second slide rail 701, a telescopic rod 704 with one end connected to a power output end of the driving motor 702 and a middle portion penetrating through the bearing 703, and two driving gears 705 coaxially connected to the telescopic rod 704 and arranged at intervals, and through telescopic adjustment of the telescopic rod 704, one of the driving gears 705 can be meshed with the central wheel 204 or the gear ring 303 for transmission connection, so as to drive rotation. The two driving gears 705 are arranged at intervals and are respectively positioned at two sides of the bearing 703, the lower end of the bearing 703 is provided with a straight rod, and the lower end of the straight rod is connected with the second sliding rail 701 in a sliding manner. The telescoping rod 704 in this embodiment is both telescoping and can withstand torque.

One driving gear 705 on the driver 700 is meshed with and is in transmission connection with the gear ring 303, the driver 700 further comprises another group of spare drivers, one driving gear 705 on each spare driver is meshed with and is in transmission connection with the central wheel 204, and the rotation directions of the two groups of telescopic rods 704 are opposite, so that the central wheel 204 and the gear ring 303 can run in opposite rotation directions. The structure of the drive 700 is illustrated in the figure, the spare drive not being illustrated. The operation of the driver 700 is controlled by the control panel 600.

As a specific embodiment of the grinding device for the anti-corrosion layer at the end of the elbow pipe provided by the present invention, please refer to fig. 1 to 7, in order to support the pipeline when the pipeline rotates and ensure the integrity and the non-damage of the pipeline, the support frame 100 is connected to a support assembly 800 for supporting the pipeline to rotate axially, the upper end surface of the support assembly 800 is arc-shaped and is adapted to the shape of the pipeline, and the support height of the support assembly 800 can be adjusted. Bearing subassembly 800 is located the pipeline middle part, can set up the multiunit at the interval, and clamping device 300 presss from both sides tightly that the pipeline is close to tip department, can make the pipeline steady rotation through clamping device 300 cooperation multiunit bearing subassembly 800 like this, accomplishes the operation of polishing to the pipe end. The support assembly 800 may also be attached to the support frame 100 or may be attached to the ground without interfering with the operation of the conveyor 400. The operation of the conveyor 400 is controlled by a control panel 600.

Specifically, bearing subassembly 800 includes base 801, a plurality of supporting posts 802 and the one-to-one that set up in base 801 upper end articulate in a plurality of arcwalls 803 of a plurality of supporting posts 802 upper end, a plurality of arcwalls 803 are articulated each other from one end to other end head and the tail in proper order, up end interval is provided with a plurality of balls 804 on arcwall 803, pipeline outer wall and a plurality of balls 804 rolling contact, through the height of adjusting a plurality of supporting posts 802, can finely tune the height of arcwall 803, and then the adjustable bearing scope to different diameter pipelines. The spatial range enclosed by the arc plates 803 can also be adjusted by the supporting columns 802. The expansion and contraction of the support posts 802 is controlled by the control panel 600. The plurality of support posts 802 may be positioned at the same height or may be positioned at different heights as shown in FIG. 6.

In order to precisely adjust the distance or position of the pipeline moving in the direction close to the grinding device 200, as an embodiment of the grinding device for the anticorrosive coating at the end of the elbow pipe according to the present invention, referring to fig. 1 to 7, a conveying mechanism 900 is connected to the bottom end of the conveyor 400, and the conveying mechanism 900 is adapted to drive the conveyor 400 to translate along the axial direction of the pipeline so as to adjust the grinding width at the end of the pipeline. The conveying mechanism 900 can control the position of the conveyor 400 along the axial direction of the pipeline, and further can adjust the axial position of the pipeline, the conveying mechanism 900 comprises a support 908, a motor 901 arranged on the support 908, a driving wheel 902, two driven wheels 903, and a conveying chain 904 or a conveying belt wrapped on the two driven wheels 903, the driving wheel 902 is arranged between the two driven wheels 903, the motor 901 is in transmission connection with the driving wheel 902, the conveyor 400 is positioned at the upper end of the conveying chain 904 or the conveying belt, the driving wheel 902 rotates to drive the conveyor 400 to be finely adjusted in position, the adjusting range is small, the conveyor 400 cannot fall off from the conveying mechanism 900 at the moment, and further the pipe end grinding width is adjusted.

Preferably, a plurality of columns 905 are connected to the bottom end of the transfer mechanism 900, and the height of the columns 905 can be adjusted, so that the height of the transfer mechanism 900 or the conveyor 400 can be adjusted.

Referring to fig. 1 to 7, as a specific embodiment of the grinding device for the anti-corrosion layer at the end of the elbow pipe, a rotating platform 906 is connected to the bottom end of the conveying mechanism 900, and the rotating platform 906 is used for driving the conveying mechanism 900 to rotate circumferentially in a horizontal plane so as to adjust the grinding position of the end of the pipeline. Rotating platform 906 upper end is the rotation end, and the rotation end can the circumferencial direction rotatory, and many stands 905 set up in rotating platform 906 upper end, and rotating platform 906 again with control panel 600 electric connection, through controlling on control panel 600, with regard to the rotation angle of adjustable rotating platform 906, and then adjusted the position or the direction of polishing of pipeline. The rotary platform 906 is a prior art motorized rotary platform. The transfer of the transfer mechanism 900 is controlled by the control panel 600.

Specifically, a plurality of universal wheels 907 are disposed at the bottom end of the rotating platform 906, and the rotating platform 906 can move freely through the universal wheels 907, so that the conveyor 400 supports different positions of the pipeline.

The above description is intended to be illustrative of the preferred embodiment of the present invention and should not be taken as limiting the invention, but rather, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (10)

1. Return bend pipe end anticorrosive coating grinding device, its characterized in that includes:

a support frame;

the grinding device is connected to the support frame, is provided with a plurality of grinders which are suitable for circumferentially rotating along the outer circle of the bent pipeline close to the end part and grinding the end part of the pipeline, and is also provided with a positioning structure which is suitable for positioning the grinding position of the pipeline along the axial direction of the pipeline, wherein the positioning structure is used for abutting against the end part of the pipeline and regulating the grinding width of the grinders on the end part of the pipeline; and

the clamping device is connected to the supporting frame in an axial rotating mode around the pipeline, is provided with a plurality of clamping structures which rotate circumferentially along the outer circle of the bent pipeline close to the end part and are suitable for extruding and clamping the pipeline along the radial direction of the pipeline, and the rotating directions of the clamping devices are opposite to the rotating directions of the grinding devices when the grinding devices rotate to alternately operate or operate simultaneously.

2. The grinding apparatus for grinding the corrosion protection layer at the end of the pipe of the bent pipe according to claim 1, further comprising a conveyor adapted to support the bent pipe and convey the pipe axially along the pipe in a direction close to the grinding means, the conveyor having an adjustment column adapted to adjust a height of support of the bent pipe.

3. The grinding apparatus for grinding an anticorrosive coating at the end of an elbow pipe according to claim 1, further comprising a cleaning device adapted to clean dust and foreign matter on the outer wall of the pipe, the cleaning device being capable of rotating in the circumferential direction of the outer circumference of the pipe and moving in the axial direction of the pipe, and cleaning during the rotation and the movement.

4. The grinding device for the corrosion-resistant layer of the end of the elbow pipe according to claim 1, wherein the grinding device comprises:

the three groups of first supporting wheels are rotatably connected to the supporting frame along the axial direction of the supporting frame, and are arranged in the same vertical plane and form a circular space in a surrounding manner;

the central wheel is rotatably arranged in the circular space along the axial direction of the central wheel, the outer circumferential wall of the central wheel is connected with the three first supporting wheels, the axial direction of the central wheel is along the axial direction of the pipeline, and the pipeline is positioned on the side of the central wheel;

the grinding machines are respectively connected with the first sliding rails in a one-to-one corresponding sliding mode, the sliding direction of the grinding machines is along the radial direction of the pipeline, the grinding machines are enclosed to form a circle, and the diameter of the circle is adjusted through sliding;

the positioning structure is connected to one side, close to the pipeline, of the center wheel, and when the pipeline is close to the grinding device, the positioning structure is used for abutting against the pipe end and positioning the grinding position of the grinding machine on the pipe end.

5. The grinding device for the corrosion-resistant layer at the pipe end of the elbow pipe according to claim 4, further comprising a telescopic rod which is telescopic along the axial direction of the pipeline, wherein one end of the telescopic rod is slidably connected with the first slide rail, the other end of the telescopic rod is connected with the grinding machine, and the grinding position of the grinding machine for the pipe end is adjusted by the telescopic rod.

6. The grinding apparatus for pipe end anticorrosive coatings of bent pipes according to claim 4, wherein the clamping means comprises:

the three groups of second supporting wheels are rotationally connected to the supporting frame along the axial direction of the second supporting wheels, and the three groups of first supporting wheels are arranged in the same vertical plane and form a circular space in a surrounding manner;

the clamping structures are arranged on the inner circumferential wall of the gear ring and arranged around the outer circumference of the pipeline, and the clamping structures are used for abutting against the outer wall of the pipeline when the pipeline stretches out and draws back in the radial direction.

7. The grinding apparatus for pipe end anticorrosive coatings of bent pipes according to claim 6, wherein the supporting frame is connected with a driver for driving the central wheel and the ring gear to rotate in opposite directions, or driving the central wheel to rotate, or driving the ring gear to rotate.

8. The grinding device for the anti-corrosion layer at the pipe end of the elbow pipe according to claim 1, wherein the supporting frame is connected with a supporting component for supporting the pipeline to rotate axially, the upper end surface of the supporting component is arc-shaped and is matched with the pipeline in shape, and the supporting height of the supporting component can be adjusted.

9. The grinding apparatus for pipe end corrosion protection coatings of bent pipes according to claim 2, wherein a transfer mechanism is connected to the bottom end of the conveyor and adapted to drive the conveyor in translation along the axial direction of the pipe to adjust the grinding width of the pipe end.

10. The grinding apparatus for pipe end anticorrosive coatings of bent pipes according to claim 9, wherein a rotating platform is connected to a bottom end of the transfer mechanism, and the rotating platform is used for driving the transfer mechanism to rotate circumferentially in a horizontal plane so as to adjust a grinding position of the end of the pipe.

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